# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
#      http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
"""
Redfish Inspect Interface
"""

from oslo_log import log
from oslo_utils import importutils
from oslo_utils import units

from ironic.common import boot_modes
from ironic.common import exception
from ironic.common.i18n import _
from ironic.common import states
from ironic.common import utils
from ironic.drivers import base
from ironic.drivers.modules import inspect_utils
from ironic.drivers.modules.redfish import utils as redfish_utils
from ironic.drivers import utils as drivers_utils

LOG = log.getLogger(__name__)

sushy = importutils.try_import('sushy')

if sushy:
    CPU_ARCH_MAP = {
        sushy.PROCESSOR_ARCH_x86: 'x86_64',
        sushy.PROCESSOR_ARCH_IA_64: 'ia64',
        sushy.PROCESSOR_ARCH_ARM: 'arm',
        sushy.PROCESSOR_ARCH_MIPS: 'mips',
        sushy.PROCESSOR_ARCH_OEM: 'oem'
    }

    BOOT_MODE_MAP = {
        sushy.BOOT_SOURCE_MODE_UEFI: boot_modes.UEFI,
        sushy.BOOT_SOURCE_MODE_BIOS: boot_modes.LEGACY_BIOS
    }


class RedfishInspect(base.InspectInterface):

    def __init__(self):
        """Initialize the Redfish inspection interface.

        :raises: DriverLoadError if the driver can't be loaded due to
            missing dependencies
        """
        super(RedfishInspect, self).__init__()
        if not sushy:
            raise exception.DriverLoadError(
                driver='redfish',
                reason=_('Unable to import the sushy library'))

    def get_properties(self):
        """Return the properties of the interface.

        :returns: dictionary of <property name>:<property description> entries.
        """
        return redfish_utils.COMMON_PROPERTIES.copy()

    def validate(self, task):
        """Validate the driver-specific Node deployment info.

        This method validates whether the 'driver_info' properties of
        the task's node contains the required information for this
        interface to function.

        This method is often executed synchronously in API requests, so it
        should not conduct long-running checks.

        :param task: A TaskManager instance containing the node to act on.
        :raises: InvalidParameterValue on malformed parameter(s)
        :raises: MissingParameterValue on missing parameter(s)
        """
        redfish_utils.parse_driver_info(task.node)

    def inspect_hardware(self, task):
        """Inspect hardware to get the hardware properties.

        Inspects hardware to get the essential properties.
        It fails if any of the essential properties
        are not received from the node.

        :param task: a TaskManager instance.
        :raises: HardwareInspectionFailure if essential properties
                 could not be retrieved successfully.
        :returns: The resulting state of inspection.

        """
        system = redfish_utils.get_system(task.node)

        # get the essential properties and update the node properties
        # with it.
        inspected_properties = task.node.properties

        if system.memory_summary and system.memory_summary.size_gib:
            inspected_properties['memory_mb'] = str(
                system.memory_summary.size_gib * units.Ki)

        if system.processors and system.processors.summary:
            cpus, arch = system.processors.summary
            if cpus:
                inspected_properties['cpus'] = cpus

            if arch:
                try:
                    inspected_properties['cpu_arch'] = CPU_ARCH_MAP[arch]

                except KeyError:
                    LOG.warning("Unknown CPU arch %(arch)s discovered "
                                "for node %(node)s", {'node': task.node.uuid,
                                                      'arch': arch})

        simple_storage_size = 0

        try:
            LOG.debug("Attempting to discover system simple storage size for "
                      "node %(node)s", {'node': task.node.uuid})
            if (system.simple_storage and
                    system.simple_storage.disks_sizes_bytes):
                simple_storage_size = [
                    size for size in system.simple_storage.disks_sizes_bytes
                    if size >= 4 * units.Gi
                ] or [0]

                simple_storage_size = simple_storage_size[0]

        except sushy.exceptions.SushyError as ex:
            LOG.debug("No simple storage information discovered "
                      "for node %(node)s: %(err)s", {'node': task.node.uuid,
                                                     'err': ex})

        storage_size = 0

        try:
            LOG.debug("Attempting to discover system storage volume size for "
                      "node %(node)s", {'node': task.node.uuid})
            if system.storage and system.storage.volumes_sizes_bytes:
                storage_size = [
                    size for size in system.storage.volumes_sizes_bytes
                    if size >= 4 * units.Gi
                ] or [0]

                storage_size = storage_size[0]

        except sushy.exceptions.SushyError as ex:
            LOG.debug("No storage volume information discovered "
                      "for node %(node)s: %(err)s", {'node': task.node.uuid,
                                                     'err': ex})

        try:
            if not storage_size:
                LOG.debug("Attempting to discover system storage drive size "
                          "for node %(node)s", {'node': task.node.uuid})
                if system.storage and system.storage.drives_sizes_bytes:
                    storage_size = [
                        size for size in system.storage.drives_sizes_bytes
                        if size >= 4 * units.Gi
                    ] or [0]

                    storage_size = storage_size[0]

        except sushy.exceptions.SushyError as ex:
            LOG.debug("No storage drive information discovered "
                      "for node %(node)s: %(err)s", {'node': task.node.uuid,
                                                     'err': ex})

        # NOTE(etingof): pick the smallest disk larger than 4G among available
        if simple_storage_size and storage_size:
            local_gb = min(simple_storage_size, storage_size)

        else:
            local_gb = max(simple_storage_size, storage_size)

        # Note(deray): Convert the received size to GiB and reduce the
        # value by 1 GB as consumers like Ironic requires the ``local_gb``
        # to be returned 1 less than actual size.
        local_gb = max(0, int(local_gb / units.Gi - 1))

        # TODO(etingof): should we respect root device hints here?

        if local_gb:
            inspected_properties['local_gb'] = str(local_gb)
        else:
            LOG.warning("Could not provide a valid storage size configured "
                        "for node %(node)s. Assuming this is a disk-less node",
                        {'node': task.node.uuid})
            inspected_properties['local_gb'] = '0'

        if system.boot.mode:
            if not drivers_utils.get_node_capability(task.node, 'boot_mode'):
                capabilities = utils.get_updated_capabilities(
                    inspected_properties.get('capabilities', ''),
                    {'boot_mode': BOOT_MODE_MAP[system.boot.mode]})

                inspected_properties['capabilities'] = capabilities

        valid_keys = self.ESSENTIAL_PROPERTIES
        missing_keys = valid_keys - set(inspected_properties)
        if missing_keys:
            error = (_('Failed to discover the following properties: '
                       '%(missing_keys)s on node %(node)s'),
                     {'missing_keys': ', '.join(missing_keys),
                      'node': task.node.uuid})
            raise exception.HardwareInspectionFailure(error=error)

        task.node.properties = inspected_properties
        task.node.save()

        LOG.debug("Node properties for %(node)s are updated as "
                  "%(properties)s", {'properties': inspected_properties,
                                     'node': task.node.uuid})

        if (system.ethernet_interfaces and
                system.ethernet_interfaces.summary):
            macs = system.ethernet_interfaces.summary

            # Create ports for the discovered NICs being in 'enabled' state
            enabled_macs = {nic_mac: nic_state
                            for nic_mac, nic_state in macs.items()
                            if nic_state == sushy.STATE_ENABLED}
            if enabled_macs:
                inspect_utils.create_ports_if_not_exist(
                    task, enabled_macs, get_mac_address=lambda x: x[0])
            else:
                LOG.warning("Not attempting to create any port as no NICs "
                            "were discovered in 'enabled' state for node "
                            "%(node)s: %(mac_data)s",
                            {'mac_data': macs, 'node': task.node.uuid})
        else:
            LOG.warning("No NIC information discovered "
                        "for node %(node)s", {'node': task.node.uuid})

        return states.MANAGEABLE
